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2012 | 21 | 3 |

Tytuł artykułu

Comparison of daytime and nighttime ecosystem respiration measured by the closed chamber technique on a temperate mire in Poland

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Ecosystem respiration (Reco) plays an important role in estimating the global carbon balance of terrestrial ecosystems, and knowledge of respiration is required to correctly assess the gross primary (GPP) production of such ecosystems. In our paper, daytime Reco fluxes are compared with nighttime CO₂ fluxes which were measured manually by the closed chamber technique on a wetland site in Poland. The CO₂ fluxes measurements were performed between July 2008 and May 2009. Our study indicated that there are significant differences between modeled daytime and nighttime Reco fluxes and that these differences are higher when the nighttime fluxes are restricted only to nights with stable atmospheric conditions. The nighttime sums of cumulative Reco are much higher than the one estimated for daytime conditions, while there is nearly no difference between daytime and nighttime sums of cumulative Reco, when the nighttime fluxes are restricted only for nights with turbulent atmospheric conditions. Consequently, Reco models developed on the basis of nighttime data series can overestimate CO₂ fluxes when they are used to estimate daytime respiration. In order to reduce uncertainties in estimation of daily Reco fluxes on the basis of the nighttime chamber measurements, the nighttime Reco models should be restriced only to the fluxes that were measured in turbulent atmospheric conditions. The biases in nighttime chamber measurements (especially when conducted in stable atmospheric conditions) as well as differences in estimated daytime and nighttime Reco fluxes can have a significant effect on the assessment of global carbon balances of terrestrial ecosystems.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

21

Numer

3

Opis fizyczny

p.643-658,fig.,ref.

Twórcy

autor
  • meteorology Department, Poznan University of Life Sciences, Piatkowska 94, 60-649 Poznan, Poland
autor
autor

Bibliografia

  • 1. REICH B.R. The carbon dioxide exchange. Science, 329, 774, 2010.
  • 2. VALENTINI R., MATTEUCCI G., DOLMAN A.J., SCHULZE E.-D., REBMANN C., MOORS E.J., GRANIER A., GROSS P., JENSEN N.O., PILEGAARD K., LINDROTH A., GRELLE A., BERNHOFER C., GRÜNWALD T., AUBINET M., CEULEMANS R., KOWALSKI A. S., VESALA T., RANNIK Ü., BERBIGIER P., LOUSTAU D., GUMUNDSSON J., THORGEIRSSONH., IBROMA., MORGENSTERN K, CLEMENT R., MONCRIEFF J., MONTAGNANI L., MINERBI S., JARVIS RG. Respiration as the main determinant of carbon balance in European forests. Nature, 404, 861, 2000.
  • 3. LARSEN K.S., IBROM A., BEIER C., JONASSON S., MICHELSEN A. Ecosystem respiration depends strongly on photosynthesis in a temperate health. Biogeochemistry 85, 201,2007.
  • 4. BARFORD C.C., WOFSY S.C., GOULDEN M.L., MUNGER J.W, HAMMOND PYLE E., URBANSKI S.P., HUTYRA L., SALESKA S.R., FITZJARRALD D., MOORE K. Factors controlling long- and short-term sequestration of atmospheric CO, in a mid-latitude forest. Science 294, 1688, 2001.
  • 5. JANSSENS J.A., LANKREIJER H., MATTEUCCI G. KOWALSKI A.S., BUCHMANN N., EPRON D., PILEGAARD K, KUTSCH W., LONGDOZ B., GRUNWALD T., MONTAGNANI L., DORE S., REBMANN C., MOORS E. J., GRELLE A., RANNIK U., MORGENSTERN K, OLTCHEV S., CLEMENT R., GUDMUNDSSON J., MINERBI S., BERBIGIER P., IBROM A., MONCRIEFF J., AUBINET M., BERNHOFER C., JENSEN N. O., VESALA T., GRANIER A., SCHULZE, LINDROTH A., DOLMANA. J., JARVIS P. G., CEULEMANS R., VALENTINI R. Productivity overshadows temperature in determining soil and ecosystem respiration across European forests. Glob. Change Biol. 7, 269, 2001.
  • 6. HIBBARD KA, LAW BE, REICHSTEIN M. SULZMAN J. An analyses of soil respiration across northern hemisphere temperate ecosystems. Biogeochemistry 73, 29, 2005.
  • 7. AUBINET M., GRELLE A., IBROM A., RANNIK U., MONCRIEFF J., FOKEN T., KOWALSKI A.S., MARTIN PH., BERBIGIER P., BERNHOFER C., CLEMENT R., ELBERS J., GRANIER A., GRUNWALD T., MORGENSTERN ft., PILEGAARD K, REBMANN C., SNIJDERS W., VALENTINI R, VESALA T. Estimates of the annual net carbon and water exchange of forests: the EUROFLUX methodology. Adv. Ecol. Res. 30, 113, 2000.
  • 8. BALDOCCHI D.D. Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems. Past, present and future. Glob. Change Biol. 9, (4), 479, 2003.
  • 9. LAFLEUR P.M., ROULET N.T., BUBIER J.L., FROLKING S., MOORE T.R. Interannual variability in the peatland- atmosphere carbon dioxide exchange at an ombrotrophic bog. Global Biogeochem. Cy., 17, (2), 1036, 2003.
  • 10. LIVINGSTON G.P., HUTCHINSON G.L. Enclosurebased measurement of trace gas exchange: applications and sources of error. In: Matson, P.A., Harriss, R.C. (Eds.), Biogenic Trace Gases: Measuring Emissions from Soil and Water. Blackwell Science, Cambridge, pp. 14-50, 1995.
  • 11. PUMPANEN J., KOLARI P., ILVESNIEMI H., MINKKINEN K, VESALA T., NIINISTO S., LOHILA A., LARMOLA T., MORERO M., PIHLATIE M., JANSSENS I., YUSTE J.C., GRUNZWEIG J.M., RETH S., SUBKE J.A., SAVAGE K., KUTSCH W., OSTRENG G., ZIEGLER W., ANTHONI P., LINDROTH A., HARI P. Comparison of different chamber techniques for measuring soil CO₂ efflux. Agr. Forest Meteorol. 123, 159, 2004.
  • 12. DRÖSLER M. Trace gas exchange and climatic relevance of bog ecosystem, Southern Germany. PhD Dissertation, Lehrstuhl für Vegetationsokologie, Department für Ökologie, Technischen Universität München, pp. 182. 2005.
  • 13. GOULDEN M.L., MUNGER J.W., FAN S.-M., DAUBE B.C., WOFSY S.C. Measurements of carbon sequestration by long-term eddy covariance. Methods and critical evaluation of accuracy. Glob. Change Biol. 2, 169, 1996.
  • 14. LAFLEUR RM. Growing season energy and CO₂ exchange at a subarctic boreal wood land. J. Geophys. Res. 104, (D8), 9571, 1999.
  • 15. LAVIGNE M.B., RYAN M.G., ANDERSON D.E., BALDOCCHI D.D., CRILL P.M., FITZJARRALD DR., GOULDEN M.L., GOWER S.T., MASSHEDER J.M., MCCAUGHEY J.H., RAYMENT M., STRIEGL R.G. Comparing nocturnal eddy covariance measurements to estimates of ecosystem respiration made by scaling chamber measurements at six coniferous boreal sites. J. Geophys. Res. 102, (D24), 28,977-28,985, 1997.
  • 16. VAN GORSEL E., LEUNING R., CLEUGH H.A., KEITH H., SUNI T. Nocturnal carbon efflux. Reconciliation of eddy covariance and chamber measurements using an alternative to the u-threshold filtering technique. Tellus 59, (3), 397, 2007.
  • 17. ZAMOLODCHIKOV D.G., KARELIN D.V., IVASCHENKO A.I., OECHEL W.C., HASTINGS S.J. CO₂ flux measurements in Russian Far East tundra using eddy covariance and closed chamber techniques. Tellus B. 55, 879, 2003.
  • 18. HEALY R.W., STRIEGEL R.G., RESSELT.F., HUTCHINSON G.L., LIVINGSTON G.P. Numerical evaluation of static chamber measurements of soil-atmosphere gas exchange identification of physical processes. Soil Sei. Soc. Am. J. 60, 740, 1996.
  • 19. HUTCHINSON G.L., LIVINGSTON G.P., HEALY W., STRIEGL R.G. Chamber measurement of surface-atmosphere trace gas exchange. Numerical evaluation of dependence on soil, interfacial layer, and source/sink properties. J. Geophys. Res., 105, (D7), 8865, 2000.
  • 20. JUSZCZAK R, ACOSTA M., MICHALAK M., CHOJNICKI B., URBANIAK M., DRÖSLER M., AUGUSTIN J., OLEJNIK J. Night-Time CO₂ chamber measurements in peatland ecosystem in Poland. In: Atmospheric heat and mass exchange research, Ed. by B.H. Chojnicki. Acta Agrophysica 179, 113, 2010.
  • 21. SCHNEIDER J., KUTZBACH L., SCHULZ S., WILMKING M. Overestimation of CO₂ respiration fluxes by closed chamber method in low turbulence nighttime conditions. J. Geophys. Res., 114, G03005, pp. 10, 2009.
  • 22. RAYMENT M.B. Closed chamber systems underestimate soil CO₂ efflux. Eur. J. Soil Sci., 51, 107, 2000.
  • 23. CHRISTIANSEN J.R., KORHONEN J., JUSZCZAK R., GIEBELS M., PIHLATIE M. Assessing the effects of chamber placement, manual sampling and headspace mixing on CH₄ fluxes in a laboratory experiment. Plant Soil. Published online 343, 171,2011.
  • 24. SALESKAS.R., MILLER S.D., D.M., GOULDEN M.L., WOFSY S.C., DA ROCHA H.R., DE CAMARGO P.B., CRILL P., DAUBE B.C., DE FREITAS H.C., HUTYRA L., KELLER M., KIRCHHOFF V., MENTON M., MUNGER J.W., PYLEE., RICE A.H., SILVA H. Carbon in Amazon forests: Unexpected seasonal fluxes and disturbance-induced losses. Science, 302, (5650), 1554, 2003.
  • 25. LINDROTH A., LUND M., NILSSON M., AURELA M., CHRISTENSEN T., LAURILA T., RINNE J., RIUTTA T., SAGERFORS J., STRÖM L., TUOVINEN J.-R, VESALT. Environmental controls on the CO₂ exchange in north European mires. Tellus B, 59, 812, 2007.
  • 26. LUND M., ROULET N.T., LINDROTH A., LAFLEUR P.M., CHRISTENSEN T.R., AURELA M., CHOJNICKI B.H., FLANAGAN L.B., HUMPHREYS E.R., LAURILA T., OECHEL W.C., OLEJNIK J., RINNE J., SCHUBERT P., NILSSON M.B. Variability in exchange of CO₂ across 12 northern peatland and tundra sites. Glob. Change Biol., 16, (9), 2436, 2010.
  • 27. VAN DER MOLEN M.K., VAN HUISSTEDEN K.J., PARMENTIER F.J., PETRESCU A.M.R., DOLMAN A.J., MAXIMOV T.C., KONONOV A.V., KARSANAEV S.V., SUZDALOV D.A. The growing season greenhouse gas balance of a continental tundra site in the Indigirka lowlands, NE Siberia. Biogeosciences, 4, 985, 2007.
  • 28. DAVIDSON E.A., JANSSENS I.A., LUO Y. On the variability of respiration in terrestrial ecosystems: moving beyond Q10. Glob. Change Biol. 12, 154, 2006..
  • 29. CRAINE J.M., WEDIN D.A., CHAPIN F.S. Predominance of ecophysiological controls on soil CO₂ flux in a Minnesota grassland. Plant Soil 207, 77, 1999.
  • 30. REICHSTEIN M., REY A., FREIBAUER A., TENHUNEN J., VALENTINI R., BANZA J., CASALS P., CHENG Y., GRÜNZWEIG J.M., ISRAEL R., IRVINE J., JOFFRE R., LAW B.E., LOUSTAU D., MIGLIETTA F., OECHEL W., OURCIVAL J.-M., PEREIRA J.S., PERESSOTTI A., PONTI F., QI Y., RAMBAL S., RAYMENT M., ROMANYA J., ROSSI F., TEDESCHIV., TIRONE G., XU M., YAKIR D. Modeling temporal and large-scale spatial variability of soil respiration from soil water availability, temperature and vegetation productivity indices. Global Biogeochem. Cy. 17, pp. 1104, 15, 2003.
  • 31. DAVIDSON E.A., VERCHOT L.V., CATTANIO J.H., ACKERMAN L.V. CARVALHO J.E.M. Effects of soil water content on soil respiration in forests and cattle pastures of eastern Amazonia. Biogeochemistry, 48, 53, 2000.
  • 32. BRIDGHAM S.D., RICHARDSON C.J. Mechanisms controlling soil respiration (CO₂ and CH₄) in southern peatlands. Soil Biol. Biochem. 24, 1089, 1992.
  • 33. BUBIER J.L., BHATIA G., MOORE T.R, ROULET N.T., LAFLUER P.M. Spatial and temporal variability in growing season net ecosystem carbon dioxide exchange at a large peatland in Ontario, Canada. Ecosystems 6, 353, 2003.
  • 34. JUSZCZAK R., ACOSTA M., MICHALAK M., KAYSER D., OLEJNIK J. Ecosystem respiration in a temperate mire depends on peat temperature and water table depth. Plant and Soil 2012 [in Print],
  • 35. LAFLEUR P.M., MOORE T.R., ROULET N.T., FROLKING S. Ecosystem respiration in a cool temperate mire depends on peat temperature but not water table. Ecosystems 8, 619, 2005.
  • 36. BROOKS A., FARQUHAR S. Effect of temperature on the CO₂/O₂ specificity of ribulose-l,5-biosphate carboxylase/oxygenase and rate of respiration in the light. Plant, 165, 397,1985.
  • 37. ATKIN O.K., WESTBACK M.H.M., CAMBRIDGE M.L., LAMBERS H., PONS T.L. Leaf respiration in light and darkness (a comparison of slow and fast-growing Poa species). Plant Physiol. 113, 961,1997.
  • 38. ATKIN O.K., EVANS J.R., SIEBKE K. Relationships between the inhibition of leaf respiration by light and enhancement of leave dark respiration following light treatment. Austr J Plant Physiology 25, 437,1998.
  • 39. AVELANGE M.-H., THIERY J.M., SARREY F., GANS P., REBEILIE F. Mass-spectrometric determination of O₂ and CO₂ gas exchange in illuminated higher plant cells: evidence for light-inhibition of substrate decarboxylations. Planta 183, 150,1991.
  • 40. KRÖMER S. Respiration during photosynthesis. Annu Rev Plant Physiol Plant Mol Biology 46, 45,1995.
  • 41. VILLAR R., HELD A.A., MERINO J. Dark leaf respiration in light and darkness of an evergreen and a deciduous plant species, Plant Physiol., 107, 421, 1995.
  • 42. FROLKING S., ROULET N.T., MOORE T.R., LAFLEUR P.M., BUBIER J.L., CRILL P.M. Modeling the seasonal to annual carbon balance of Mer Bleue bog, Ontario, Canada. Global Biogeochem. Cy. 16, 1030, 2002.
  • 43. BUNCE J.A. Short and Long-term inhibition of respiratory carbon dioxide efflux by elevated carbon dioxide. Annals of Botany 65, 637,1990.
  • 44. BUNCE J.A. Carbon dioxide concentration at night affects translocation from soybean leaves. Annals of Botany 90, 399, 2002.
  • 45. DRAKE B.G., AZCON-BIETO J., BERRY J., BUNCE J., DIJKSTRA P., FARRAR J., GIFFORD R.M., GONZALEZ-MELER M.A., KOCH G., LAMBERS H., SIEDOW J., WULLSCHLEGER S. Does elevated atmospheric CO₂ concentration inhibit mitochondrial respiration in green plants? Plant Cell. Environ. 22, 649,1999.
  • 46. CURTIS P.S., WANG X. A meta-analyses of elevated CO₂ effects on woody plant mass, form and physiology. Oceanologia, 113, 299, 1998.
  • 47. AMTHOR J.S. Direct effects of elevated CO₂ on nocturnal in situ leaf respiration in nine temperate deciduous tree species is small. Tree Physiol. 20, 139, 2000.
  • 48. GONZALEZ-MELER M.A., TANEVA L., TRUEMAN R.J. Plant respiration and elevated atmospheric CO₂ concentration cellular response and global significance. Annals of Botany, 94, 647, 2004.
  • 49. CHOJNICKI B.H., MICHALAK M., ACOSTA M., JUSZCZAK R., AUGUSTIN J., DRÖSLER M., OLEJNIK J. Measurements of carbon dioxide fluxes by chamber method at Rzecin wetland ecosystem in Poland. Pol. J. Environ. Stud. 19, (2), 283, 2010.
  • 50. MICHALAK M., JUSZCZAK R., ACOSTA M., CHOJNICKI B., DRÖSLER M., AUGUSTIN J., OLEJNIK J. Comparison of observed and modeled daily ecosystem respiration (Reco) and net ecosystem exchange (NEE). In: Atmospheric heat and mass exchange research, Ed. by B.H. Chojnicki. Acta Agrophysica 179, 41, 2010.
  • 51. CHOJNICKI B.H., URBANIAK M., JOZEFCZYK D., AUGUSTIN J., OLEJNIK J. Measurements of gas and heat fluxes at Rzecin wetland. In: Wetlands: Monitoring, Modelling and Management. Ed. Okruszko T., Maltby E., Szatylowicz J., Światek D., Kotowski W. pp. 125-131, 2007
  • 52. WOJTERSKA M. The Vegetation of Wielkopolska and Southern Pomerania lakeland regions: Field session guide 52. Polish Botanical Society Meeting, 24-28 September 2001,2001 [In Polish],
  • 53. MÜNCHMEYER U. For the N-implementation in degradedfen soils in northeast Germany with special emphasis on N-mineralization and of the discharge of gaseous N compounds. Dissertation University of Greifswald. Thesis University of Hohenheim, Germany. VerlagGrauer,Beuren/ Stuttgart, pp. 162, 2001 [In German],
  • 54. LLOYD J., TAYLOR J.A. On the temperature dependence of soil respiration. Funct. Ecol. 8, 315,1994.
  • 55. ALM J., TALANOV A., SAARNIO S., SILVOLA J., IKKONEN E., AALTONEN H., NYKANEN H., MARTIKAINEN P. J. Reconstruction of the carbon balance for microsites in a boreal oligotrophic pine fen, Finland, Oecologia, 110, 423,1997.
  • 56. HEALY R.W., STRIEGL R.G., RESSEL T.F, HUTCHINSON G.L., LIVINGSTON G.P. Numerical evaluation of static-chamber measurements of soil-atmosphere gas exchange identification of physical processes. Soil Sci. Soc. Am. J., 60, 740,1996.
  • 57. KUTZBACH L., SCHNEIDER J., SACHS T, GIEBELS M., NYKÄNEN H., SHURPALI N., MARTIKAINEN P., ALM J., WILMKING M. CO₂ flux determination by closed-chamber methods can be seriously biased by inappropriate application of linear regression. Biogeosciences, 4, 1005, 2007.
  • 58. HUTCHINSON G.L., LIVINGSTON G.P., HEALY W., STRIEGL R.G. Chamber measurements of surface-atmosphere trace gas exchange: Numerical evaluation of dependence on soil, interfacial layer, and source/sink properties. J. Geophys. Res., 105, (D7), 8865-88-75, 2000.
  • 59. LE DANTEC V., EPRON D., DUFRENE E. Soil CO₂ efflux in a beech forest; Comparison of two dynamic systems. Plant Soil, 214, 125, 1999.

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